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Dr. Srinivas Appari

Associate Professor, Department of Chemical Engineering, BITS Pilani, Hyderabad Campus

Birla Institute of Technology & Science, Pilani
Hyderabad Campus
Jawahar Nagar, Kapra Mandal
Dist.-Medchal-500 078
Telangana, India

Publications

 

Peer reviewed journals

 

Book Chapter

  • HR Ellamla, Srinivas Appari*, Technoeconomic Analysis of Biorefinery Processes for Biofuel and other Important Products, Lignocellulosic Biorefining Technologies, 333-351, John Wiley Publishers (2020)


SCI- Journals

  1.  Ramakrishna Chava, Anil Kumar Seriyala, Bhaskar Anurag Varma, Karthiek Yeluvu, Banasri Roy, Srinivas Appari*, Investigation of Ba doping in A-site deficient Perovskite Ni-exsolved Catalysts for Biogas Dry Reforming,  International Journal of Hydrogen Energy, Accepted in March 2023(Q1, IF: 7.139)
  2. Anil Kumar Seriyala, Ankit Rao, Corey Leclerc, Srinivas Appari, Banasri Roy, Effects of metal loading and support modification on the low-temperature steam reforming of ethanol (LTSRE) over the Ni–Sn/CeO2 catalysts, International Journal of Hydrogen Energy, Accepted in January 2023(Q1, IF: 7.139)
  3. Ramakrishna Chava, Bhaskar Anurag Varma, Banasri Roy, Srinivas Appari*, Recent advances and perspectives of perovskite-derived Ni-based catalysts for CO2 reforming of biogas, Journal of CO2 Utilization, 65, 102206, 2022. (Q1, IF: 8.312)
  4.  Surya Prakash SS, Ramakrishna Chava, Srinivas Appari*, A Bahurudeen, BVR Kuncharam, Sustainable use of rice husk for the cleaner production of value-added products, Journal of Environmental Chemical Engineering 10 (1), 106899, 2022. (Q1, IF: 7.968)
  5. Anil Kumar S, Indraja S, R Singh, Srinivas Appari, Banasri Roy, A review on ethanol steam reforming for hydrogen production over Ni/Al2O3 and Ni/CeO2 based catalyst powders, International Journal of Hydrogen Energy, 47, 8177-8213 (Q1, IF: 7.139)
  6. Nirmal Kumar S, Srinivas Apari*, BVR Kuncharam, Techniques for Overcoming Sulfur Poisoning of Catalyst Employed in Hydrocarbon Reforming. Catalysis Surveys from Asia, 25, 362–388, 2021 (Q2, IF: 3.042)
  7. Vivek Pawar, Praksash Ponugoti, Vinod M Janardhanan, Srinivas Appari*, Experimental studies of catalyst deactivation due to carbon and sulphur during CO2 reforming of CH4 over Ni washcoated monolith in the presence of H2S, The Candian Journal of Chemical Engineering, 100, 1858-1867, 2021. (Q2, IF: 2.602)   
  8. Ramakrishna Chava, Devendra Purbia, Banasri Roy, Vinod M Janardhanan, Bahurdeen A, Srinivas Appari*, Effect of Calcination Time on the Catalytic Activity of Ni/γ-Al2O3 Cordierite Monolith for Dry Reforming of Biogas, International Journal of Hydrogen Energy, 46, 6341-6357, 2020.   ( Q1, IF: 7.139)
  9. G Athira, A Bahurudeen, Srinivas Appari, Rice Straw Ash as a Potential Supplementary Cementitious Material: Influence of Thermochemical Conversion on its Properties, Journal of Materials in Civil Engineering, 33,  04021123:1-14, 2020 (Q1, IF: 3.226)
  10. G Athira, A Bahurudeen, Srinivas Appari, Thermochemical Conversion of Sugarcane Bagasse: Composition, Reaction Kinetics, and Characterisation of By-Products, Sugar Technology, 23, 433–452, 2021 (Q2, IF: 2.209)
  11. UPM Ashik, S Asano, S Kudo, D Pham Minh, Srinivas Appari, The Distinctive Effects of Glucose-Derived Carbon on the Performance of Ni-Based Catalysts in Methane Dry Reforming, Catalysts 10 (1), 21 (2020). (Q2, IF: 4.501)
  12. G Athira, A Bahurudeen, Srinivas Appari, Sustainable alternatives to carbon intensive paddy field burning in India: A framework for cleaner production in agriculture, energy, and construction industries, Journal of Cleaner Productions, 236, 117598 (2020). (Q1, IF: 11.072)
  13. Athira. G, Bahurudeen. A, Srinivas Appari, Praksh. N, A Circular Framework for the Valorisation of Sugar Industry Wastes: A Review on the Industrial Symbiosis between Sugar, Construction and Energy Industries, Journal of Cleaner Production, 203, 89-108 (2018) (Q1, IF: 11.072)
  14. Vivek Pawar, Srinivas Appari, Dayadeep Monder, Vinod M Janardhanan, Study of combined deactivation due to the sulfur poisoning and carbon deposition during the biogas reforming on supported Ni catalyst, Industrial & Engineering Chemistry Research, 56 (30), 8448-8455 (2017). (Q1, IF: 4.326)
  15. Kazuhiro Uemura, Srinivas Appari, Shinji Kudo, Jun-ichiro Hayashi, Hisahiro Einaga, Koyo Norinaga, In-situ reforming of the volatiles from fast pyrolysis of lignocellulosic biomass over zeolite catalysts for aromatic compounds, Fuel Processing Technology, 136, 73-78, 2014. (Q1, IF: 7.033)
  16. Hua-Mei Yang, Srinivas Appari, Shinji Kudo, Jun-ichiro Hayashi, and Koyo Norinaga, Chemical Structures and Primary Pyrolysis Characteristics of Lignins Obtained from Different Preparation Methods, Journal of the Japan Institute of Energy 93 (10), 986-994 (2014). (IF: 0.478)
  17. Srinivas Appari, Ryota Tanaka, Chengyi Li, Shinji Kudo, Jun-ichiro Hayashi, Vinod M. Janardhanan, Hiroaki Watanabe, Koyo Norinaga, Predicting the Temperature and Reactant Concentration Profiles of Reacting Flow in the Partial Oxidation of Hot Coke Oven Gas using Detailed Chemistry and a One-dimensional Flow Model, Chemical Engineering Journal, 266, 82-90, 2015. (Q1, IF: 16.744)
  18. Narumon Thimthong, Srinivas Appari, Ryota Tanaka, Keita Iwanaga, Shinji Kudo, Jun-ichiro Hayashi, Tetsuya Shoji, Koyo Norinaga, Kinetic modeling of non-catalytic partial oxidation of nascent volatiles derived from fast pyrolysis of woody biomass with detailed chemistry, Fuel Processing Technology, 134, 159- 168 (2015). (Q1, IF: 7.033)
  19. Koyo Norinaga, Huamei Yang, Ryota Tanaka, Srinivas Appari, Keita Iwanaga, Yuka Takashima, Shinji Kudo, Tetsuya Shoji, Jun-ichiro Hayashi, A mechanistic styudy on the reaction pathways leading to benzene and naphthalene in cellulose vapor cracking, Biomass and Bioenergy, 69, 144-154 (2015). (Q1, 5.744)
  20. Narumon Thimthong, Srinivas Appari, Shinji Kudo, Jun-ichiro Hayashi, Koyo Norinaga, Numerical study on the steam reforming of biomass tar using a detailed chemical kinetic model, Journal of the Japan Institute of Energy, 94, 794-804, 2015. (IF: 0.478)
  21. Cheng-Yi Li, Srinivas Appari, Li-Xin Zhang, An-Ni Huang, Hsiu-Po Kuo, Shinji Kudo, Jun-ichiro Hayashi, Koyo Norinaga, Modeling of gas/particle flow in coal conversion with a drop tube reactor using a lumped kinetic model accounting volatiles char interaction, Fuel Processing Technology, 138, 588-594, (Q1, IF: 7.033)
  22. Hua-Mei Yang, Srinivas Appari, Shinji Kudo, Jun-ichiro Hayashi, and Koyo Norinaga, Detailed Chemical Kinetic Modeling of Vapor-Phase Cracking of Volatiles Derived from the Fast Pyrolysis of Lignin, Industrial& Engineering Chemistry Research, 54, 6855-6864, 2015 (Q1, IF: 4.326)
  23. Chengyi Li, Srinivas Appari, Ryota Tanaka, Kyoko Hanao, Yeonkyung Lee, Shinji Kudo, Jun-ichiro Hayashi, Vinod M. Janardhanan, Hiroaki Watanabe, Koyo Norinaga, A CFD study on the reacting flow of partially combusting hot coke oven gas in a bench-scale reformer, Fuel, 159, 590-598 (2015). (Q1, IF: 8.035)
  24. Srinivas Appari, Vinod M Janardhanan, Ranjit Bauri, Sreenivas Jayanti, and Olaf Deutschmann, A Detailed Kinetic Model for Biogas Steam Reforming on Ni and Catalyst Deactivation due to Sulfur Poisoning, Applied Catalysis A: General, 471, 118-125 (2014). (Q1, IF: 5.723)
  25. Srinivas Appari,Vinod M Janardhanan, Ranjit Bauri, and Sreenivas Jayanti, Deactivation and Regeneration of Ni Catalyst During Steam Reforming of Model Biogas: An experimental investigation, International Journal of Hydrogen Energy, 39, 297-304, 2014. ( Q1, IF: 7.139) 2. , 66, 5184-5191, 2011. (Q1, IF: 4.889)
  26. Srinivas Appari, Vinod M Janardhanan, Sreenivas Jayanti, and Olaf Deutschmann, Micro-kinetic modeling of NH3 decomposition on Ni and its application to solid-oxide fuel cells,  Chemical Engineering Science, 66, 5184-5191, 2011. (Q1, IF: 4.889)
  27. Vinod M Janardhanan, Srinivas Appari, Sreenivas Jayanti, and Deutschmann.O, Numerical study of on-board fuel reforming in a catalytic plate reactor for solid-oxide fuel cells. Chemical Engineering Science, 66, 490-498, 2011. (Q1, IF: 4.889)